US7589861B2 - Image forming apparatus and printing system - Google Patents
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- US7589861B2 US7589861B2 US11/216,237 US21623705A US7589861B2 US 7589861 B2 US7589861 B2 US 7589861B2 US 21623705 A US21623705 A US 21623705A US 7589861 B2 US7589861 B2 US 7589861B2
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- 230000010365 information processing Effects 0.000 claims abstract description 17
- 238000012545 processing Methods 0.000 claims description 36
- 230000004044 response Effects 0.000 claims description 6
- 230000005540 biological transmission Effects 0.000 description 9
- 238000013519 translation Methods 0.000 description 6
- 238000001514 detection method Methods 0.000 description 2
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- 238000004904 shortening Methods 0.000 description 2
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/12—Digital output to print unit, e.g. line printer, chain printer
- G06F3/1201—Dedicated interfaces to print systems
- G06F3/1278—Dedicated interfaces to print systems specifically adapted to adopt a particular infrastructure
- G06F3/1284—Local printer device
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/12—Digital output to print unit, e.g. line printer, chain printer
- G06F3/1201—Dedicated interfaces to print systems
- G06F3/1202—Dedicated interfaces to print systems specifically adapted to achieve a particular effect
- G06F3/1203—Improving or facilitating administration, e.g. print management
- G06F3/1206—Improving or facilitating administration, e.g. print management resulting in increased flexibility in input data format or job format or job type
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/12—Digital output to print unit, e.g. line printer, chain printer
- G06F3/1201—Dedicated interfaces to print systems
- G06F3/1223—Dedicated interfaces to print systems specifically adapted to use a particular technique
- G06F3/1237—Print job management
- G06F3/1244—Job translation or job parsing, e.g. page banding
- G06F3/1247—Job translation or job parsing, e.g. page banding by conversion to printer ready format
Definitions
- the present invention relates to a printing system where a plurality of page-description languages (PDL) is used to process a print job.
- PDL page-description languages
- a print job is sent from an information processing apparatus such as a personal computer to an image forming apparatus such as a printer.
- a print job is written in a single page-description language.
- the print job is processed in one page-description language throughout the print job.
- Page-description languages have their own features. Some page-description languages provide a wide variety of commands that are useful in handling graphics, and other page-description languages provide a relatively small number of commands and a high throughput, which are useful in editing a text.
- Some print jobs may have graphic information inserted at several locations therein.
- Other print jobs may require a page-description language excellent in describing graphics as well as a page-description language suitable in describing a text portion.
- the image forming apparatus construes that a new job has started.
- the image forming apparatus outputs, in the middle of a page, a portion of the page earlier than the switching of the page description language.
- a complete page having graphic information cannot be printed out.
- a variety of techniques have been disclosed for effectively using a plurality of page-description languages.
- An object of the invention is to provide an image processing apparatus in which graphic information and text information can be properly printed in a page.
- Another object of the invention is to provide an image processing apparatus in which a document written in a plurality of page-description languages can be properly printed.
- An image information processing apparatus includes a language selecting section and a print job creating section.
- the language selecting section selects a first page-description language and a second page-description language from among a plurality of page-description languages.
- the first page-description language describes a first part of an image and the second page-description language describing a second part of the image.
- the print job creating section creates an item of image data that contains a first item of data based on a first command system written in the first page-description language and a second item of data based on a second command system written in the second page-description language.
- An image forming apparatus including a data receiving section, a first command analyzing section, a second command analyzing section, and a page data producing section.
- the data receiving section receives an image data from an image processing apparatus, the image data containing a first item of data based on a first command system and a second item of data based on a second command system.
- the second item of data is inserted into the first item of data.
- the first command analyzing section analyzes the first item of data to produce a first result of analysis.
- the second command analyzing section analyzes the second item of data to produce a second result of analysis.
- the page data producing section produces an item of image data by combining the first result of analysis with the second result of analysis.
- the image forming apparatus may further include a subsequent data detecting section that detects that a description in data.
- the subsequent data detecting section detects a description written in the second command system in the first item of data
- the subsequent data detecting section switches from the first command analyzing section to the second command analyzing section.
- the image forming apparatus may further include a temporary storing area that holds the second result of analysis when the second command analyzing section has analyzed the second item of data.
- the image forming apparatus may further include a non-volatile memory area and a data reading section.
- the non-volatile memory area holds information previously received from an external host apparatus.
- the data reading section reads the information from the non-volatile memory section in response to a signal received from an image processing apparatus.
- the image forming apparatus may further include a random access memory that receives the information from the non-volatile memory section and holds the received information.
- the data reading section reads an amount of information at a time into the random access memory.
- a printing system incorporates the aforementioned image information processing apparatus and the aforementioned image forming apparatus.
- FIG. 1 illustrates a printing system according to a first embodiment
- FIG. 2 illustrates an example of structure of a print job
- FIG. 3 is a flowchart illustrating the operation of the image processing apparatus
- FIG. 4 and FIG. 5 are a flowchart illustrating the operation of the image forming apparatus
- FIGS. 6A-6D illustrate a print job illustrating the operation of the first embodiment
- FIG. 7 illustrates a printing system according to a second embodiment
- FIG. 8 illustrates an example of the structure of print job according to the second embodiment
- FIG. 9 and FIG. 10 illustrate the content of the temporary storing area when command 1 B is analyzed
- FIG. 11 is a first flowchart illustrating the operation of the second embodiment
- FIG. 12 is a second flowchart illustrating the operation of the second embodiment
- FIG. 13 illustrates a printer according to a third embodiment
- FIG. 14 illustrates a specific example data structure of the print job in the frame
- FIG. 15 illustrates an example of the data structure of form data
- FIG. 16 illustrates the commands when the data reading section initiates reading of the print job in FIG. 14 from the buffer
- FIG. 17 illustrates a command written in the page-description language A
- FIG. 18 illustrates the detail of the form data specified by a command
- FIG. 19 illustrates the commands when a command is read
- FIG. 20 illustrates the commands when the reading section reads a command 1 B written in the page-description B shortly after the detection of a command in the page-description language A;
- FIG. 21 illustrates the commands when the reading section reads a command written in the page-description A shortly after reading a command and another command that are written in the page-description language B;
- FIG. 22 illustrates the commands when the form data has been completely read from the storage section
- FIG. 23 illustrates the commands when the reading section reads a command 13 A written in the page-description language A
- FIGS. 24 and 25 are a flowchart illustrating the operation of the image forming apparatus according to the third embodiment.
- FIG. 26 illustrates a printer according to a fourth embodiment
- FIG. 27 and FIG. 28 are a flowchart illustrating the operation of the image forming apparatus according to the fourth embodiment.
- FIG. 29 illustrates the operation of a data copy area.
- a printing system includes a printer driver and a controller in the form of a CPU.
- the printer driver includes a language selecting section, a data converting section, and a print job creating section.
- the controller operates as a job managing section, a first command analyzing means, and an N-th command analyzing means.
- FIG. 1 illustrates a printing system according to a first embodiment.
- the printing system includes an information processing apparatus 1 , an image forming apparatus 2 , and a network 3 .
- An information processing apparatus 1 includes an application processing section 4 , a language selecting section 5 , a data converting section 6 , a print job creating section 7 , and a data transmitting section 8 .
- the information processing apparatus 1 divides print information produced using an application into a predetermined number of portions, and then converts the respective portions into an optimum page-description language (PDL), creating a print job that includes a plurality of items of data written in different command systems. Transmission data that includes this print job is transmitted over the network 3 .
- the information processing apparatus 1 usually takes the form of a personal computer (referred to as PC hereinafter).
- the application processing section 4 allows an operator to create print information that contains a text and graphics.
- the application processing section 4 is implemented by the CPU and executes program modules pre-installed in, for example, a hard disk (HDD), not shown, in the PC.
- HDD hard disk
- the language selecting section 5 receives print information from the application processing section 4 and analyzes the print information.
- the language selecting section 5 divides the print information prepared by the operator into a main part (e.g., text) and a subpart (e.g., graphics), and selects optimum page-description languages for the respective parts of the print information. In other words, the language selecting section 5 selects an emulation suitable for the text and another emulation suitable for the graphics.
- the language selecting section 5 is implemented by the CPU in the PC and executes program modules pre-installed in the printer driver of the PC.
- the data converting section 6 converts the main part of the print information into a first command system written in a main page-description language A selected by the language selecting section 5 , and the sub part into an N-th command system written in a sub page-description language B selected by the language selecting section 5 .
- the data converting section 6 includes printer drivers ( 1 )-(N) according to corresponding page-description languages, which can be selected by the language selecting section 5 .
- the data converting section 6 is implemented by the CPU in the PC and executes program modules corresponding to the printer driver ( 1 ) to printer driver (N).
- the print job creating section 7 creates a print job based on data in the first command system, converted in the main page description language A, and data based on the i-th command system, converted in the sub page-description language B.
- the print job creating section 7 attaches the types of the main page-description language and the sub page-description language to the head of the print job, thereby preparing data to be transmitted.
- the data converting section 6 is implemented by the CPU in the PC and executes program modules pre-installed in the printer driver of the PC.
- FIG. 2 illustrates an example of structure of a print job.
- the print job includes six data blocks 7 - 1 to 7 - 6 .
- the data blocks are made up of at least one byte and mostly a plurality of bytes.
- the data blocks 7 - 1 to 7 - 3 are commands 1 A- 3 A, respectively, converted into the main page-description language A.
- the data blocks 7 - 4 and 7 - 5 are commands 1 B- 2 B, respectively, into converted into the sub page-description language B.
- the data block 7 - 6 is a command 4 A converted into the main page-description language A.
- the command system of the print job is analyzed to determine which page description language the print job is written in.
- the command 3 A contains a description indicating that commands (i.e., command 1 B and command 2 B) written in the sub page-description language B immediately follow command 3 A, and a description indicative of a data size (i.e., command 1 B+command 2 B).
- the data transmitting section 8 receives transmission data from the print job creating section 7 , and creates a frame by adding an address and a frame check sequence etc., to the top and end of the transmission data according to a protocol of the network 3 over which the transmission data is transmitted to the image forming apparatus 2 .
- the image forming apparatus 2 includes a data receiving section 9 , a memory section 10 , a job management section 11 , emulation processing section 12 , data reading section 13 , a page data producing section 14 , a translation section 15 , and a print engine 16 .
- the image forming apparatus 2 receives over the network 3 a frame in which data contains commands of different systems.
- the image forming apparatus 2 analyzes the data that contains commands of different command systems according to corresponding emulations, then creates print data from the analysis, and finally prints out the data.
- the data receiving section 9 receives the frame over the network 3 and stores the print job ( FIG. 2 ) into the memory section 10 .
- the memory section 10 receives the print job from the data receiving section 9 and stores each of a plurality of sub-sections of data (i.e., each command). For example, the memory section 10 stores commands on a command-by-command basis in the order in which they are received, i.e., command 1 A, command 2 A, command 1 B, command 2 B, and command 4 A in this order.
- the job management section 11 extracts, holds, and manages sub-sections of the data that contains commands of different command systems. In other words, the job management section 11 analyzes the commands in the received print job, thereby identifying the main page description language A and the sub page-description language B of the received print job. The job management section 11 then notifies the emulation processing section 12 for the identified page-description languages A and B, and manages addresses and data sizes of the respective commands stored in the memory section 10 .
- the job management section 11 is implemented by the CPU in the image forming apparatus 2 and executes program modules previously stored in a storage means in the image forming apparatus 2 .
- the emulation processing section 12 includes a plurality of types of emulations ( 1 )-(n) and a subsequent job detecting section 12 - 1 .
- the emulation processing section 12 reads the data blocks (i.e., commands) in order from the memory section 10 via the data reading section 13 , the data blocks being read on a byte-by-byte basis under instructions and management of the job management section 11 . Then, the emulation section 12 analyzes the data blocks by using corresponding emulations. The emulation processing section 12 also analyzes the end portion of the respective data blocks.
- the emulation processing section 12 switches to another suitable type of emulation according to the sub page-description language B.
- the emulation processing section 12 is implemented by the CPU in the image forming apparatus 2 and executes program modules previously stored in the storage means in the image forming apparatus 2 .
- the job management section 11 notifies the emulation processing section 12 that the received print job is in the page-description language A.
- the emulation processing section 12 reads the first command from the memory section 10 and provides emulation of the command according to the main page-description language A.
- the subsequent job detecting section 12 - 1 analyzes the command to determine whether the command contains the data size of a following command, and detects whether the following command is written in the sub page description language B. If the command does not contain information on the data size of the following command and information that the following command is written in the sub page-description language B, the emulation processing section 12 continues to analyze the following command according to the main page-description language A. If the command contains the data size of the following command and the information that the following command is in the sub page-description language B, the emulation processing section 12 provides emulation of the following command according to the sub page-description language B.
- the page data producing section 14 converts the results of analysis performed by the emulation processing section 12 into an intermediate language.
- the page data producing section 14 is implemented by the CPU and executes program modules pre-installed in the storage means in the image forming apparatus 2 .
- the translation section 15 translates the content of page drawing, converted into the intermediate language by the page data producing section 14 , into bitmap data. Then, the translation section 15 outputs the bitmap data to the print engine 16 .
- the translation section 15 is implemented by the CPU and executes program modules pre-installed in the storage means in the image forming apparatus 2 .
- the print engine 16 receives the bitmap data from the translation section 15 and prints the bit map data.
- the network 3 is an information communication network such as LAN over which data can be communicated between the information processing apparatus 1 and the image forming apparatus 2 .
- FIG. 3 is a flowchart illustrating the operation of the image processing apparatus 1 .
- Step S 1 - 1 The operator creates print information using the application processing section 4 , and inputs a request to print the print information.
- Step S 1 - 2 The language selecting section 5 receives the print information from the application processing section 4 and divides it into a main portion of the print information and a sub portion. The language selecting section 5 then selects optimum page-description languages for the main and sub portions of the print information, respectively.
- Step S 1 - 3 The data converting section 6 converts the main portion of the print information into data based on the first command system by using the mail page-description language A, and the sub portion of the print information into data based on the second command system by using the sub page-description language B.
- Step S 1 - 4 The print job creating section 7 creates a print job, described with reference to FIG. 2 , using the data based on the first command system and the data based on the second command system. In this manner, the print job creating section 7 produces the transmission data that is transmitted to the image forming apparatus 2 .
- Step S 1 - 5 The data transmitting section 8 attaches, for example, addresses and a frame check sequence to the head and tail of the transmission data) ( FIG. 2 ), the addresses and frame check sequence complying with the protocol of the network 3 .
- the transmission data is outputted to the image forming apparatus 2 over the network 3 . This completes the operation of the image processing apparatus 1 .
- FIG. 4 and FIG. 5 are a flowchart illustrating the operation of the image forming apparatus 2 .
- FIGS. 6A-6D show a print job illustrating the operation of the first embodiment.
- FIG. 4 and FIG. 5 a description will be given of the operation of the image forming apparatus 2 in which the image forming apparatus 2 receives the transmission data or frame including a print job in FIG. 2 over the network 3 and prints the transmission data.
- the description will also be given with reference to FIGS. 6A-6D as required.
- the content of the print job in FIGS. 6A-6D is the same as that in FIG. 2 .
- Step S 111 The data receiving section 9 receives a frame from the network 3 , and stores the print job ( FIG. 2 ) into the memory section 10 .
- the data receiving section 9 notifies the job management section 11 of the data size of the print job and an address at which print job is held in the memory section 10 .
- the data receiving section 9 also notifies the job management section 11 of the page control language in which the data is written.
- the job management section 11 manages the data size of the print job and address at which the print job is stored in the memory section 10 .
- Step S 112 The emulation A and emulation B are initialized.
- the job management section 11 notifies an appropriate one of the emulations ( 1 )-(n) that the print job has been received, the notified emulation providing emulation in the main page-description language A.
- emulation A The emulation that analyzes commands written in the main page-description language A will be referred to as emulation A hereinafter.
- the job management section 11 also notifies an appropriate one of the emulations ( 1 )-(n) that the print job has been received, the notified emulation providing emulation in the main page-description language B.
- the emulation that analyzes commands written in the main page-description language B will be referred to as emulation B hereinafter.
- Step S 113 The emulation A notifies the data reading section 13 that the analysis of the print job will begin.
- the data reading section 13 refers to the job management section 11 for obtaining an address at which the first command (i.e., command 1 A in FIG. 6A ) is stored in the memory section 10 , thereby becoming ready to read data blocks from the memory section 10 on a byte-by-byte basis.
- Step S 114 The emulation A notifies an appropriate one of the emulations ( 1 )-(n) that the print job was received, the notified emulation being capable of performing emulation in the page-description language B.
- Step S 115 The emulation A controls the data reading section 13 to read from the memory section 10 one of the bytes that form the data block.
- the emulation A reads command 1 A ( FIG. 6A ).
- Step S 116 The emulation A performs the analysis of the command.
- Step S 117 A decision is made to determine whether the data blocks read through the data reading section 13 make up one complete command. If YES, then the program proceeds to steps S 120 . If NO, the program jumps back to step S 115 to repeat steps S 115 through S 119 until the analysis of data blocks for one complete command have been completed.
- Step S 118 A decision is made to determine whether the following command contains the sub page-description language B, and to detect the data size of the following commands.
- the subsequent job detecting section 12 - 1 checks the end portion of the command currently being processed to detect the data size of the following commands and to determine whether the following command contains the sub page-description language B.
- step S 119 the program proceeds to step S 119 .
- step S 122 the program proceeds to step S 122 .
- Step S 119 The emulation A executes the analyzed command.
- Step S 120 A decision is made to determine whether the analysis of the entire print job has completed.
- step S 121 the program proceeds to step S 121 and then ends.
- step S 115 The emulation A repeats the step S 115 through step S 118 to analyze command 2 A.
- the emulation A further repeats the step S 115 through step S 118 to analyze command 3 A.
- the subsequent job detecting section 12 - 1 detects at step S 118 information inserted at the end portion of command 3 A, the information describing that the immediately following command is in the sub page-description language B.
- the information inserted at the end portion of command 3 A also describes the data size of the following commands written in sub page-description language B.
- Step S 122 The emulation A notifies the emulation B of the data size to be analyzed by the emulation B.
- the emulation B saves the data size.
- the data size is two commands, i.e., command 1 B and command 2 B ( FIG. 6B ).
- Step S 123 A decision is made to determine whether the analysis of the data having a notified data size has been completed.
- step S 115 the program jumps to step S 115 .
- step S 124 the program proceeds to step S 124 .
- step S 124 the program proceeds to step S 124 .
- Step S 124 The emulation B reads one of the bytes that form the command through the data reading section 13 .
- the emulation B reads a command 1 B ( FIG. 6C ).
- Step S 125 The emulation B performs the analysis of the byte.
- Step S 126 A decision is made to determine whether the bytes read through the data reading section 13 make up one complete command.
- step S 123 the program jumps back to step S 123 to repeat steps S 123 to S 126 until the analysis of one complete command has been completed.
- step S 127 the program proceeds to step S 127 .
- step S 127 the program proceeds to step S 127 .
- Step S 127 The emulation B executes the analyzed command.
- Step S 121 The results of analysis by the emulation A and emulation B are printed as an item of image data and then the program ends.
- the program cycles through the flowchart to analyze command 2 B ( FIG. 6A ) following command 1 B.
- the emulation B analyzes command 2 B by repeating steps S 123 to S 126 , and then returns to step S 115 through step S 123 .
- the emulation A analyzes a command 4 A by repeating steps S 115 to S 119 , and then returns to step S 115 .
- the program ends through step S 117 .
- the first embodiment allows printing of the print job without a page divided into separate pages.
- the graphics and text are properly laid on a page.
- the invention is not limited to this case.
- the present invention is applicable to a print job that contains a plurality of page-description languages, i.e., a main page-description language A, sub page-description language, a sub page-description language C, a sub page-description language and so on.
- a print job includes commands A expressed in the main page-description language A and commands B expressed in the sub page-description language B.
- the print job may contain a command B having a length larger than a predetermined size of data block of a print job.
- a second embodiment addresses this case.
- FIG. 7 illustrates a printing system according to the second embodiment.
- the printing system includes an information processing apparatus 1 , an image forming apparatus 22 , and a network 3 .
- Elements similar to those in the first embodiment have been given the same reference numerals and the description thereof is omitted.
- the image forming apparatus 22 includes a data receiving section 9 , a memory section 10 , job management section 11 , emulation processing section 23 , data reading section 13 , page data producing section 14 , translation section 15 , and print engine 16 .
- the image forming apparatus 22 receives over the network 3 a frame in which data contains commands of different command systems.
- the image forming apparatus 22 analyzes the data that contains commands of different command systems according to corresponding emulations, then creates print data from the analysis, and finally prints out the print data.
- the emulation processing section 23 includes a plurality of types of emulations ( 1 )-(n), subsequent job detecting section 12 - 1 , and a temporary storing area 23 - 1 .
- the emulation processing section 12 reads the data blocks (i.e., commands) in order from the memory section 10 via the data reading section 13 under instructions and management of the job management section 11 , and analyzes the data blocks by using corresponding emulations.
- the emulation processing section 12 also analyzes the end portions of the respective data blocks.
- the emulation processing section 12 switches to another suitable one of the plurality of emulations ( 1 )-(n) capable of performing emulation in the sub page-description language B.
- the temporary storing area 23 - 1 holds the result of analysis when a data block expressed in the sub page-description language B is analyzed.
- the temporary storing area 23 - 1 is implemented by a CPU in the image forming apparatus 22 and executes program modules pre-installed in, for example, a hard disk, not shown, in the image forming apparatus 22 .
- FIG. 8 illustrates an example of the structure of print job according to the second embodiment.
- the print job includes a command 1 B inserted between commands expressed in the main page-description language A.
- Command 1 B has a length larger than a predetermined size of data block of a print job.
- the print job contains six data blocks 30 - 1 , 30 - 2 , 33 - 3 ( 1 ), 30 - 4 , 30 - 5 , and 30 - 6 and a data block 33 - 3 ( 2 ) shorter than a complete one data block.
- the data blocks 30 - 1 , 30 - 2 , 30 - 4 , 30 - 5 , 30 - 6 are a command 1 A, command 2 A, and command 3 A, command 4 A and command 5 A, respectively, which are written in the main page-description language A.
- the data block 33 - 3 ( 1 ) is a front portion of command 1 B and the data block 33 - 3 ( 2 ) is a rear portion of command 1 B.
- the data blocks 33 - 3 ( 1 ) and 33 - 3 ( 2 ) are written in the main page-description language B.
- the front portion of command 1 B is inserted between command 2 A and command 3 A.
- the rear portion of command 1 B is inserted between command 4 A and command 5 A.
- Information on an immediately following data block is inserted in a end portion of a command written in the main page-description language A that immediately precedes a command written in the sub page-description language B.
- the Information describes that the immediately following data block contains the sub page-description language B.
- the information also describes the data size.
- the end portion of command 2 A describes the data size of the block 33 - 3 ( 1 ), the front portion of command 1 B.
- the end portion of command 3 A describes the data size of the block 33 - 3 ( 2 ), the rear portion of command 1 B.
- FIG. 9 and FIG. 10 illustrate the content of the temporary storing area 23 - 1 when command 1 B is analyzed. Assume that command 1 B is “START#-2.35L” which indicates that the starting position of printing is moved leftward by 2.35 mm.
- FIG. 9 illustrates an example of the temporary storing area 23 - 1 .
- FIG. 10 illustrates the front portion of command 1 B and the rear portion of command 1 B.
- the data block 33 - 3 ( 1 ) holds the front portion, i.e., “START#-2.3” and the data block 33 - 3 ( 2 ) holds the rear portion, i.e., “5L.”
- a mode 40 - 1 represents whether command 1 B is being analyzed. If the analysis is being performed, the mode area 40 - 1 holds “ANALYSIS NOT COMPLETED.” When the analysis has been completed, “ANALYSIS COMPLETED” is stored into the mode 40 - 1 . When the data block 33 - 3 ( 1 ) has just been analyzed and the data block 33 - 3 ( 2 ) has not analyzed yet, “ANALYSIS NOT COMPLETED” is stored into the category 40 - 1 .
- the table area 40 - 2 shows the number of a table (one of a plurality of tables provided for analysis). The table number is “7” in this example.
- An integer area 40 - 3 indicates the integer of “START#-2.35L,” i.e., “2” and a fraction area indicates the fraction of “START#-2.35L,” i.e., “3.”
- a sign area 40 - 5 indicates the sign of “START#-2.35L,” i.e., “-.”
- the analysis of the command “START#-2.35L” is complete when the analysis of the data block 33 - 3 ( 2 ) has been completed.
- the mode area 40 - 1 now holds “ANALYSIS COMPLETED” and the fraction area 40 - 4 holding “35.”
- FIG. 11 is a first flowchart illustrating the operation of the second embodiment.
- FIG. 12 is a second flowchart illustrating the operation of the second embodiment.
- Step S 211 The data receiving section 9 receives a frame over the network 3 , and stores the print job ( FIG. 2 ) into the memory section 10 .
- the data receiving section 9 notifies the job management section 11 of the data size of the print job and an address at which the print job is held in the memory section 10 .
- the data receiving section 9 also notifies the job management section 11 of the page control language in which the data is written.
- the job management section 11 manages the data size of the print job and the address at which the print job is held in the memory section 10 .
- the job management section 11 determines in which of page-description languages A and B the data blocks are written.
- Step S 212 The emulation A and emulation B are initialized. Alternatively, the initialization of the emulation may be deferred until immediately before the emulation needs to operate. For example, the emulation B may be initialized at step S 211 , which will be described later.
- the job management section 11 notifies an appropriate one of the emulations ( 1 )-(n) that the print job has been received, the notified emulation being capable of providing emulation in the main page-description language A.
- the emulation that analyzes commands written in the main page-description language A will be referred to as emulation A hereinafter.
- the job management section 11 also notifies an appropriate one of the emulations ( 1 )-(n) that the print job has been received, the notified emulation being capable of providing emulation in the main page-description language B.
- the emulation that analyzes commands written in the main page-description language B will be referred to as emulation B hereinafter.
- Step S 213 The emulation A notifies the data reading section 13 that the analysis of the print job will begin.
- the data reading section 13 refers to the job management section 11 to obtain an address at which the first data block 30 - 1 stored in the memory section 10 , thereby becoming ready to read data blocks on a byte-by-byte basis.
- Each block is made up at least one byte and usually a plurality of bytes.
- Step S 214 The emulation A notifies an appropriate one of the emulations ( 1 )-(n) that the print job was received, the notified emulation being capable of performing emulation in the page-description language B.
- Step S 215 The emulation A controls the data reading section 13 to read a data block (i.e., one byte of data) from the memory section 10 .
- a data block i.e., one byte of data
- the emulation A controls the data reading section 13 to read a data block (i.e., one byte of data) from the memory section 10 .
- a data block i.e., one byte of data
- Step S 216 A decision is made to determine whether an immediately following command contains the sub page-description language B, and to detect the data size of the following commands.
- the subsequent job detecting section 12 - 1 checks the end portion of the command currently being processed to detect the data size of the following commands, and to determine whether an immediately following command contains the sub page-description language B.
- step S 217 If the subsequent job detecting section 12 - 1 fails to detect the sub page-description language B and the data size, then the program proceeds to step S 217 .
- step S 222 If the subsequent job detecting section 12 - 1 detects the sub page-description language B and the data size, the program proceeds to step S 222 .
- the subsequent job detecting section 12 - 1 fails to detect the sub page-description language B and the data size in command 1 A. Thus, the program proceeds to steps S 217 .
- Step S 217 The emulation A performs the analysis of the command.
- Step S 218 A decision is made to determine whether the data blocks read through the data reading section 13 make up one complete command.
- step S 215 the program jumps back to step S 215 to repeat steps S 215 through S 218 until one complete command has been analyzed.
- Step S 220 A decision is made to determine whether the analysis of the entire print job (i.e., all the commands) has completed.
- step S 221 the program proceeds to step S 221 and then ends.
- step S 215 If NO, the program jumps back to step S 215 . Because the analysis of the print job has not been completed yet, the program proceeds to step S 2 - 5 .
- the emulation A repeats the step S 215 through step S 218 to analyze the data block 30 - 2 (i.e., command 2 A).
- Step S 222 The emulation A notifies the emulation B of the data size to be analyzed.
- the emulation B holds the data size.
- the data size is the size of the data block 33 - 3 ( 1 ), i.e., the front portion of command 1 B.
- Step S 223 A decision is made to determine whether the analysis of the data notified at step S 222 has been completed.
- step S 215 the program proceeds to step S 215 .
- step S 224 the program proceeds to step S 224 .
- Step S 225 The emulation B analyzes the one byte of data.
- Step S 226 The result of analysis at S 215 is stored as one of the items ( 40 - 1 to 40 - 5 in FIG. 9 ) into the temporary storing area 23 - 1 .
- the result of analysis may be stored concurrently with performing the analysis.
- Step S 227 The information stored in the temporary storing area 23 - 1 is checked to determine whether the analysis of one complete command has been completed.
- step S 228 the program proceeds to step S 228 .
- step S 223 If NO, the program jumps back to step S 223 so as to repeat steps S 223 through step S 227 until the analysis of one complete command has been completed. Here, because the analysis of command 1 B has not been completed yet, the program proceeds to step S 223 .
- step S 222 Even though the analysis of the data notified at step S 222 has been completed, the bytes read through the data reading section 13 may not make up one complete command if the command is longer than a predetermined length of command. This can happen when command 1 B is analyzed. If this is the case, the answer at step S 223 is YES after the analysis of the block 33 - 3 ( 1 ) has been completed.
- the program jumps back to step S 213 and then passes through step S 215 to step S 222 . Then, the program proceeds to step S 229 after step S 228 .
- Step S 228 The command analyzed by the emulation B is executed.
- Step S 229 Because the analysis of command 1 B has been completed, the mode area 40 - 1 of the temporary storing area 23 - 1 is “ANALYSIS COMPLETED”.
- step S 215 through S 220 are repeated to perform the analysis of the data block 30 - 6 (i.e., command 5 A). Subsequently, the program returns to step S 220 and then ends.
- Step S 221 The results of analysis performed by the emulation A and emulation B are combined into one item of image data. Then, the program ends.
- FIG. 13 illustrates a printer 1 according to a third embodiment.
- a data receiving section 2 receives a frame from a host apparatus over the network 3 .
- the frame includes a plurality of data blocks in sequence, the data blocks forming commands of different command systems.
- the received frame is stored into a buffer 4 on a command-by-command basis (i.e., respective data blocks).
- a job management section 3 handles respective data blocks as a print job, the data blocks being written in page-description languages.
- a data reading section 5 reads the data blocks from the buffer 4 in response to the requests from an emulation A and an emulation B.
- the data reading section 5 merely reads the print data from the buffer 4 or the form data from the storage section 10 irrespective of whether the data being currently read is written in the main page-description language A or in a sub page-description language B. Thus, even though the emulation is switched from one to another, the data reading section 5 is not notified.
- the emulation A and emulation B analyze the data blocks written in their corresponding page-description languages, and send the results of analysis to a page data producing section 8 .
- the page data producing section 8 receives the results of analysis from the emulation A and emulation B, and then converts the results of analysis such as characters and graphics into an intermediate language.
- a translating section 9 translates all of the contents expressed in the intermediate language into dot data, and prints the dot data.
- a storage section 10 is a non-volatile external storage apparatus such as a hard disk (HDD) connected to the printer 1 .
- the storage section 10 stores a plurality of items of data such as authenticated print data, fonts, and form data that are previously downloaded from a host apparatus.
- Authenticated print data has a password attached to it.
- the authenticated data is stored in, for example, the hard disk. When an operator inputs a password through an operation panel, the authenticated data is printed.
- the frame begins with command 10 A, followed by commands 11 A, 12 A, and 13 A in this order. All of commands 10 A- 13 A are written in a main page-description language A.
- FIG. 14 illustrates a specific example data structure of the print job in the frame.
- the print job is a sequence of commands in the received frame.
- FIG. 15 illustrates an example of the data structure of form data.
- Form data is a part of table data stored in, for example, the HDD, and describes a table frame only.
- a table data can be printed by writing the form data over numerical data.
- FIGS. 16-23 illustrate the commands of a print job written in the page-description language A and the page-description language B when the commands are read from the buffer 4 or the HDD.
- FIG. 16 illustrates the commands when the data reading section 5 initiates reading of the print job in FIG. 14 from the buffer 4 . Because the print job begins with command 10 A written in the page-description language A, the emulation A controls the data reading section 5 to read commands written in the page-description language A from the buffer 4 .
- the data reading section 5 reads commands 10 A and 11 A in order.
- FIG. 17 illustrates command 12 A written in the page-description language A.
- FIG. 18 illustrates the detail of the form data specified by command 12 A.
- the emulation A controls the reading section 5 to read the commands written in the page-description language A.
- the reading section 5 reads command 1 A and command 2 A in order.
- the form data in FIG. 18 may begin with a command written in the page-description language B.
- the form data is analyzed to determine whether the form data is written in the page-description language A or in the page-description language B.
- the data reading section 5 initiates reading of the form data according to a detected page-description language.
- FIG. 19 illustrates the commands when command 3 A is read.
- Command 3 A describes that an immediately following command contains the page-description B, and the data size of the following commands.
- command 3 A When command 3 A is detected, the emulation A notifies the emulation B of the data size written in the page-description language B (i.e., command 1 B and command 2 B).
- FIG. 20 illustrates the commands when the reading section 5 reads a command 1 B written in the page-description B shortly after the detection of command 3 A in the page-description language A.
- the emulation B controls the reading section 5 to read commands written in the page-description language B.
- FIG. 21 illustrates the commands when the reading section 5 reads a command 4 A written in the page-description A shortly after reading command 1 B and command 2 B written in the page-description language B.
- the emulation Upon completion of reading of commands 1 B and 2 B, the emulation returns the control to the emulation A.
- the emulation A resumes reading a command written in the page-description language A, i.e., command 4 A in this example.
- FIG. 22 illustrates the commands when the form data has been completely read from the storage section 10 . Once all of the commands of the form data have been read from the storage section 10 , the data reading section 5 begins to read the remaining commands of the print job from the buffer 4 .
- FIG. 23 illustrates the commands when the reading section reads a command 13 A written in the page-description language A, which is the first command after command 12 A in the page-description language A has been analyzed.
- the emulation A controls the data reading section 5 to read command 13 A.
- Step S 311 Upon receiving the frame in FIG. 14 from the host apparatus, the data receiving section 2 stores the received frame into the buffer 4 of the printer 1 .
- Step S 312 The emulation A and emulation B perform their initialization before they initiate to analyze the print job. Alternatively, the initialization of the emulation may be deferred until immediately before the emulation needs to operate.
- Step S 313 the job management section 3 notifies the emulation A of the address at which the data is held in the buffer 4 and the data size of the print job.
- the received frame consists of data blocks (i.e., commands) that follow the printer control language. Each data block is made up of at lest one byte and usually a plurality of bytes.
- the job management section 3 identifies that the data blocks in FIG. 14 form a print job and the data blocks are written in a page-description language(s).
- the job management section 3 also identifies the data size of the print job and an address at which the print job is stored in the buffer 4 .
- the job management section 3 analyzes the first data block of the print job and then, in this example, determines that the first data block should be analyzed in the emulation A.
- the emulation A can then analyze the first data block according to the page-description language A.
- Step S 314 The emulation A notifies the data reading section 5 that the analysis of the print job will begin.
- the data reading section 5 holds a reference position P indicating an address at which the head of the print job is stored in the buffer 4 .
- the address may be notified from the job management section 3 .
- Step S 315 A decision is made to determine whether the data reading section 5 should read the data either from the buffer 4 or from among macros (e.g., ID number of the form data) stored in the storage section 10 . If the data is to be read from the buffer 4 , the program proceeds to step S 316 where a data block (i.e., bytes of data) is read from the buffer 4 . If a macro is to be read from the storage section 10 , the program proceeds to step S 325 . It is to be noted that the data is to be read from the buffer 4 initially.
- macros e.g., ID number of the form data
- Step S 316 The emulation A requests the data reading section 5 to read one byte of data from the buffer 4 .
- the data reading section 5 sends the reference position P, which is an address of data to be read and has been held in the data reading section 5 , to the emulation A.
- the data reading section 5 then updates the reference position P in the data reading section 5 .
- Step S 317 The emulation A analyzes the one byte of data read from the buffer 4 .
- Step S 318 A check is made to determine whether bytes of data read from the buffer 4 make up one complete command. For data written in a page-description language, one command is made up of either one byte or a plurality of bytes. If NO, the program jumps back to step S 315 so that the data reading section 5 continues to read bytes of data from the buffer 4 until the bytes of data make up one complete command. If YES, the program proceeds to step S 319 .
- Step S 319 A decision is made to determine whether the command specifies a macro having an identifier in the form of ID that identifies an item of form data stored in the storage section 10 .
- step S 322 the program proceeds to step S 322 .
- step S 320 the program proceeds to step S 320 .
- Step S 322 A decision is made to determine whether the storage section 10 holds the form data having the specified ID.
- step S 324 the program proceeds to step S 324 .
- Step S 323 The emulation A sets the data reading section 5 so that the data reading section 5 is ready to read the form data from the storage section 10 .
- the data reading section 5 holds a reference position S that indicates an address at which the form data is stored in the storage section 10 , and the reference position P that indicates the address at which the print job is stored in the buffer 4 . This completes the execution of command 12 A. ( FIG. 14 )
- Step S 324 A decision is made to determine whether the entire print job in the buffer 4 has been analyzed.
- the data reading section 5 sends a reply “NO DATA” to the emulation A.
- the emulation A receives the reply “NO DATA” from the data reading section 5 , it is determined that the analysis of the entire print job in the buffer 4 has been completed, and therefore the emulation A ends the analysis of print job.
- step S 315 If the emulation A does not receive the reply “NO DATA” from the data reading section 5 , the program proceeds to step S 315 .
- Step S 320 A decision is made to determine whether the command read from the buffer 4 contains data blocks written in the page-description language B.
- step S 328 the program proceeds to step S 328 .
- step S 321 the program proceeds to step S 321 .
- Step S 321 The emulation A executes the analyzed command that is written in the page-description language A.
- Step S 327 the program proceeds to Step S 327 .
- Step S 326 the program proceeds to Step S 326 .
- Step S 326 The data reading section 5 reads one byte of data from the storage section 10 .
- Step S 327 The emulation A sets the data reading section 5 so that the data reading section 5 is ready to read the data from the buffer 4 .
- Step S 328 The data reading section 5 is retaining the reference position P that indicates an address at which the data blocks are held in the buffer 4 . Therefore, when the emulation requests the data reading section 5 to read the data blocks from the buffer 4 , the data reading section 5 reads the data from where the reading was halted last time. If a command contains data written in the page-description language B, the command contains information on the data size of the following commands written in the page-description language B.
- the emulation A requests the emulation B to analyze the commands written in the page-description language B, and also notifies the emulation B of the data size of the commands written in the page-description language B.
- the emulation B stores the notified data size therein.
- the emulation B may be initialized at any timing before the emulation B actually operates.
- Step S 329 A decision is made to determine whether all of the data blocks of the size notified from the buffer 4 have been analyzed.
- the emulation B compares the notified data size with the data size that has been analyzed so far, thereby determining whether all of the notified data blocks have been analyzed. If the analysis of all of the notified data blocks has been completed, the program proceeds to Step S 324 . If the analysis of all of the data blocks has not been completed yet, the program proceeds to step S 330 .
- S 330 A decision is made to determine whether the data reading section 5 should read the data either from the buffer 4 or from among macros (e.g., ID number of the form data) stored in the storage section 10 .
- macros e.g., ID number of the form data
- step S 331 If the data is to be read from the buffer 4 , the program proceeds to step S 331 .
- step S 335 If a macro is to be read from the storage section 10 , the program proceeds to step S 335 . If the data reading section 5 is referring to the storage section 10 (“STORAGE” at step S 330 ), the program proceeds to step S 335 .
- the data reading section 5 reads one byte of data from the storage section 10 .
- the data reading section 5 reads a data block (i.e., one byte of data) from the data from the buffer 4 .
- Step S 332 The emulation B assumes that the data block received from the data reading section 5 is written in the page-description language B, and analyzes the data block.
- Step S 333 A decision is made to determine whether the data blocks read through the data reading section 5 make up one complete command.
- one command consists of either one byte or a plurality of bytes.
- step S 333 the data reading section 5 continues to read the data blocks until the read data blocks make up one complete command (step S 329 to S 323 ).
- step S 334 the program proceeds to step S 334 .
- Step S 334 The emulation B executes the content of the analyzed command written in the page-description language B, and then the program loops back to step S 329 .
- frequently used data such as form data, i.e., ruled lines used for making a table can be stored previously in the storage section 10 .
- ruled lines used for making a table
- numerical data received from an information processing apparatus is overwritten with rules lines, thereby completing a table of the numerical data.
- the third embodiment has been described with respect to data that contains macro data previously registered in a storage section, the third embodiment may also be applied to authenticated print data that contains data that should be analyzed by a plurality of emulations.
- the operator selects the authenticated print data from the operation panel, and commands the printer to print.
- a fourth embodiment is directed to shortening the time required for accessing the storage section such as a hard disk.
- the content of the form data file in a storage section is first copied into a data copy area such as a random access memory (RAM) that has a high access speed.
- the data in the data copy area is then accessed during a printing operation.
- RAM random access memory
- a print job includes commands A expressed in the main page-description language A and commands B expressed in the sub page-description language B.
- FIG. 26 illustrates a printer 1 according to a fourth embodiment.
- a printer 1 includes a memory means such as a RAM having a data copy area 11 of a predetermined size.
- a form data file is read from a storage section 10 by as large an amount of data as the data copy area 11 can hold at a time.
- FIG. 27 and FIG. 28 are a flowchart illustrating the operation of the image forming apparatus 1 .
- FIG. 29 illustrates the operation of a data copy area 11 .
- FIGS. 27 , 28 , and 29 The fourth embodiment will be described with reference to FIGS. 27 , 28 , and 29 .
- the steps in a flowchart in FIG. 27 that are the same as those in the third embodiment have been given the same step numbers.
- Step S 422 A decision is made to determine whether the storage section 10 holds the form data having a specified ID. If NO, then it is determined that the command is invalid. Thus, the program proceeds step S 428 . If YES, the program proceeds to step S 423 .
- Step S 423 The emulation A requests the data reading section 5 to read the form data file from the storage section 10 .
- the reading section 5 reads the form data ( FIG. 15 ) by as large an amount of data as the data copy area 11 can hold at a time, while also holding a reference position P at which the print job is stored in the buffer 4 .
- the data reading section 5 holds a reference position S at which the form data is stored in the data copy area 11 , while also storing information on data size (e.g., 1000 bytes) of the data stored in the data copy area 11 at that time.
- the information on data size represents an amount of data that is copied from the storage section 10 into the data copy area 11 at a time.
- Step S 415 A decision is made to determine whether the data reading section 5 should read the data either from the buffer 4 or from among macros (e.g., ID number of the form data) stored in the storage section 10 . If the data is to be read from the buffer 4 , the program proceeds to step S 416 where one byte of data is read from the buffer 4 . If a macro is to be read from the storage section 10 , the program proceeds to step S 424 . It is to be noted that the data is to be read from the buffer 4 until step S 423 is performed.
- macros e.g., ID number of the form data
- Step S 424 The data reading section 5 reads one byte of data from the data copy area 11 by using the reference position S held in the data reading section 5 . Subsequently, the data reading section 5 updates both the reference position S and the information on data size of the data remaining in the data copy area 11 at that time.
- Step S 425 A decision is made to determine whether the data reading section 5 has read out all of the bytes from the copy area 11 .
- step S 428 the program proceeds to step S 428 .
- step S 426 the program proceeds to step S 426 .
- Step S 426 A decision is made to determine whether the data reading section 5 has read out the entire form data checked at step S 422 from the storage section 10 into the copy area 11 .
- step S 427 the program proceeds to step S 427 .
- step S 417 the program proceeds to step S 417 .
- Step S 417 The emulation A analyzes the data read from the buffer 4 .
- Step S 427 The data reading section 5 reads the data from the storage section 10 into the data copy area 11 , the amount of the data being as large an amount of data as the data copy area 11 can hold at a time (e.g., 1000 bytes).
- the trailing portion of the data to be read from the storage section 10 may be as short as it occupies only a fraction of the memory capacity of the data copy area 11 , in which case, the entire trailing portion is simply read into the data copy area.
- Step S 429 The emulation A requests the emulation B to analyze the commands written in the page-description language B, and notifies the emulation B of the data size of the commands written in the page-description language B.
- the emulation B stores the notified data size therein.
- the emulation B may be initialized at any timing before the emulation B actually operates.
- the data reading section 5 is retaining the reference position P that indicates an address at which the data blocks are held in the buffer 4 . Therefore, when the emulation requests the data reading section 5 to read the data blocks from the buffer 4 , the data reading section 5 reads the data from where the reading was halted last time. If a command contains data written in the page-description language B, the command contains information on the data size of the following commands written in the page-description language B.
- Step S 429 If the analysis of all the data blocks notified at Step S 429 has been completed, the program proceeds to Step S 428 .
- S 431 A decision is made to determine whether the data reading section 5 should read the data either from the buffer 4 or from among macros (e.g., ID number of the form data) stored in the storage section 10 .
- macros e.g., ID number of the form data
- step S 435 If the data is to be read from the buffer 4 , the program proceeds to step S 435 .
- step S 438 If a macro is to be read from the storage section 10 , the program proceeds to step S 438 .
- Step S 435 The emulation B assumes that the one byte of data received from the data reading section 5 is written in the page-description language B, and analyzes the data block.
- Step S 436 A decision is made to determine whether the bytes read through the data reading section 5 make up one complete command. For data written in the page-description language B, one command consists of either one byte or a plurality of bytes. Therefore, if NO at step S 436 , then the program loops back to steps S 430 to repeat steps S 430 to S 436 until the read data blocks make up one complete command. If YES, the program proceeds to step S 437 .
- Step S 437 The emulation B executes the content of the command written in the page-description language B, and then the program jumps back to step S 430 .
- Step S 439 A decision is made to determine whether the data reading section 5 has read out the entire bytes from the copy area 11 .
- step S 440 the program proceeds to step S 440 .
- step S 435 the program proceeds to step S 435 .
- Step S 440 A decision is made to determine whether the entire data notified at step S 429 has been read from the storage into the data copy area 11 .
- Step S 442 the program proceeds to Step S 442 .
- step S 441 the program proceeds to step S 441 .
- Step S 442 The emulation A sets the data reading section 5 so that the data reading section 5 is ready to read the data from the buffer 4 .
- Step S 441 If the information on the data size remaining in the data copy area 11 (updated at step S 438 ) is “0” at Step S 439 , then the data reading section 5 reads the data from the storage section 10 into the copy area 11 . Then, the data reading section 5 updates both the reference position S and the information on data size of the data remaining in the data copy area 11 at that time.
- the trailing portion of notified data blocks may occupy only a fraction (e.g., 500 bytes) of the capacity of the data copy area 11 , in which case, the trailing portion of data block is simply read into the data copy area 11 .
- the content of the form data file in the storage section 10 is first copied into the data copy area 11 that has a high access speed and is provided in the printer 1 .
- the fourth embodiment eliminates the need for accessing a form data file in the storage section 10 (e.g., hard disk drive) on a byte-by-byte basis, shortening the time required for reading the data from the storage section 10 .
- the present invention may be applied generally to printing apparatuses in which draw commands written in a page-description language are received from a host apparatus and a print image is produced from the draw commands.
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Abstract
Description
Claims (13)
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US20150317118A1 (en) * | 2014-04-30 | 2015-11-05 | Riso Kagaku Corporation | Image processing device |
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US7894084B2 (en) * | 2006-04-28 | 2011-02-22 | Infoprint Solutions Company, Llc. | Shared library in a printing system |
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US20110310434A1 (en) * | 2010-06-17 | 2011-12-22 | Toshiba Tec Kabushiki Kaisha | Printer driver device, method for controlling printer driver device, and image forming system |
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US20050117178A1 (en) * | 2003-10-14 | 2005-06-02 | Hiroshi Atobe | Information processing apparatus, control method therefor, and control program for implementing the control method |
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Publication number | Priority date | Publication date | Assignee | Title |
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US20150317118A1 (en) * | 2014-04-30 | 2015-11-05 | Riso Kagaku Corporation | Image processing device |
US9489155B2 (en) * | 2014-04-30 | 2016-11-08 | Riso Kagaku Corporation | Image processing device |
Also Published As
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EP1630664A3 (en) | 2009-04-29 |
US20060044588A1 (en) | 2006-03-02 |
EP1630664A2 (en) | 2006-03-01 |
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